Vol. 56, No. 1, January 1970 NOTES 253 - ACS Publications

(2 and 3), 300 ml of p-menthane, and 0.5 g of 85% phosphoric acid was refluxed with a Dean-Stark water separator until no more water was produced...
0 downloads 0 Views 479KB Size
NOTES 253

Vol. 56, No. 1, January 1970 cyclohexanone: ir 3.41,5.86, 6.82,6.96,7.28, 7.36,7.40, 7.50, and 8.50 p ; nmr (CDC13) 7.68 (m, 4, CHzCO, 7.80-9.00 (m, 13, CH), 9.07 (s, 3, CHa), 9.13 (s, 3, CHs), and 9.05-9.22 (3, CHCHa). This material crystallized upon standing and was recrystallized from hexane; mp 48.5-49.5'. Anal. Calcd for C16H26O: C, 81.99; H, 11.18. Found: C, 81.60; H, 11.34. 4-(ezo-5-ezo-Isocamphyl)cyclohexene(5).-A mixture of 59 g (0.25 mol) of cis- and trans-4-(ezo-5-ezo-isocamphyl)cyclohexanol (2 and 3), 300 ml of p-menthane, and 0.5 g of 85% phosphoric acid was refluxed with a Dean-Stark water separator until no more water was produced. An additional 0.5 g of 85% phosphoric acid was added, and refluxing was continued until no more water was produced and the theoretical amount had been collected (12 hr). The mixture was washed with water, 10% sodium carbonate, and again with water. The solvent was removed at 20 min. The product was distilled through a 37-cm column packed with glass helices. The yield was 49 g (0.224 mol, 90%) of 4-(ezo-5-ezo-isocamphyl)cyclohexene(5), homogeneous by vapor phase chromatography: bp 83" (0.2 mm); n% 1.5003; ir 3.38, 3.50, 6.10, 6.87, 6.98, 7.05, 7.30, 7.39, 7.42, 7.52,7.70, 0.05,8.48, 8.80, 9.10,9.71,10.10,and 13.70 p ; nmr (CDCl3) T 5.40 (d, 2, J = 3.5 cps, cis HC=CH), 7.95-9.05 (br, 15, CH), 9.10 (s, 3, CCHa), 9.17 (s, 3, CCHa), and 9.059.35 (3,CHCH3). Anal. Calcd for CleH26: C, 88.00; H, 12.00. Found: C, 87.97; H, 11.96. cis- and trans-1,2-Epoxy-4-(ezo-5-ezo-isocamphyl)cyclohexane (6 and 7).-To a solution of 9.00g (41.2mmol) of 4-(ezo-5-ezo isocamphy1)cyclohexene ( 5 ) in 90 ml of methylene chloride was added at room temperature in small quantities 8.8g (43.2 mmol, 85% pure) of m-chloroperbenzoic acid with constant stirring. After the addition was complete, the mixture was stirred for 60 hr at room temperature. The resulting mixture was filtered and the solvent was removed under reduced pressure. The residue was taken up in ether, washed with 3% sodium hydroxide and water, and dried (hfgSO4). The ether was removed, producing 8.21 g of product which was 88.5% pure by vapor phase chromatography (0.035 mol, 857,). This mixture had a woody, sandalwood odor. A Versamide column (225') showed two components (cis and trans isomers) in a 1:l ratio, but preparative separation was not possible. The product was distilled through an 8-in. Vigreux column: bp 123' (1.3 mm); n% 1.5032; ir 3.40,6.80,6.90,7.00,7.22, 7.30, 7.33, 7.45,7.90,8.50,10.30, 11.70, 12.30, 12.60, and 13.50 p ; nmr r 6.92-7.17 (br, 2, n HCOCH), 7.90-9.00 (br, 15, CH), 9.17 (s, 3, CCHa), 9.21 (s, 3, CCHa), and 9.03-9.23 (3,HCCHa). Anal. Calcd for ClBHzsO: C, 81.99; H, 11.18. Found: C, 81.54; H, 10.77. trans-3-(ezo-5-ezo-Isocamphy1)cyclohexanol (10) and cis-4(ezo-5-exo-Isocamphy1)cyclohexanol(8).-To a solution of 70.0 g of lithium aluminum hydride in 2100 ml of dry ether was added, dropwise with cooling, 322 ml of a solution of 93.25 g of anhydrous aluminum chloride in 700 ml of dry ether.' A mixture of 54.5 g (0.28 mol) of cis- and trans-1,2-epoxy-4-(ezo-5-ezo-isocamphy1)cyclohexane (ca. 1:l) dissolved in 1000 ml of dry ether was added dropwise with stirring and cooling to room temperature to the above solution. After the addition was complete, the mixture was allowed to stand at room temperature for 0.5 hr. The excess hydride was decomposed by the dropwise addition of isopropyl alcohol followed by wet ether. The organic phase was separated, the water layer was extracted several times with ether and dried (MgSO,), and the solvent was removed under atmospheric conditions. There was produced 54.1 g (0.23mol, 92%) of a mixture of trans-3-(ezo-5-ezo-isocamphy1)cyclohexanol (10) and cis-4-(ezo-5-ezo-isocamphyl)cyclohexanol(8). The two axial alcohols 8 and 10 could not be separated by vapor phase chromatography, but the trimethylsilyl ethers and trifluoroacetic esters could be separated. The mixture of 8 and 10 had ir 3.15, 3.50, 6.95, 7.36, 8.00, 8.45, 8.80, 9.50, 10.35, 11.35, 12.35, and 12.95 f i ; nmr (CDCla) T 5.78-6.10 (br, 1, CHO), 8.10-9.05 (br, 18, CH and OH), 9.12 (s, 3, CCHa), 9.19 (s, 3, CCHa), and 9.05-9.20(3,CHCHa). Anal. Calcd for CIBHZ~O: C, 81.29; H, 11.94. Found: C, 80.65; H, 12.00. Separation of trans-3-(ezo-5-ezo-Isocamphyl)cyclohexanol (10) and cis-4-(ezo-5-ezo-Isocamphy1)cyclohexanol(8) via Trimethylsilyl Ether Derivatives.-To a solution of 20 g (85 mmol) of

trans-3-(ezo-5-ezo-isocamphyl)cyclohexanol (10) and cis-4-(ezo-Sezo-isocamphy1)cyclohexanol (8) in 1 1. of dry pyridine was added 200 ml of hexamethyldisilazane followed by 80 ml of trimethylchlorosilane at room temperature. After the addition was complete the mixture was stirred at room temperature for 1 hr. The solvent and unreacted starting materials were removed under water pump vacuum. The last traces of solvent were removed by heating to 100' a t 1 mm. The crude product weighed 22.7 g (74 mmol, 87%). The product was distilled as follows through a Teflon spinning band column. The crude material weighed 22.4 g and was composed of 41.8% 9 and 58.2% 11. The fraction with bp 98-100' (0.028-0.035 mm) contained 4.8 g of the lrimethylsilyl ether of trans-3-(ezo-5-ezo-isocamphyl)cyclohexanol. The fraction with bp 100-202" (0.029-0.038mm) contained 2.2 g of the trimethylsilyl ether of cis-4-(ezo-5-ezoisocamphy1)cyclohexanol. Each of the above pure isomers was refluxed for 8 hr with 5% water in methanol (500 ml). The pure alcohols were obtained by evaporation of the methanol and removal of the water in theoretical yield. The pure trans-3-(ezo-5-ezo-isocamphy1)cyclohexanol(10) was obtained as a colorless, viscous oil which, after several weeks storage, started to crystallize. Even after many months, it failed to solidify completely. Attempts a t recrystallization from a variety of solvents were unsuccessful. Except for this behavior on crystallization, 10 appeared to be homogeneous (ir, nmr, vpc on several columns). We believe that our product is a mixture of isomers 10 and 12. It analyzed as follows: n% 1.5001; ir 2.99, 3.42, 6.90,7.20, 7.25, 7.30: 7.90, 8.80, 9.05, 9.50, 10.05, and 10.30 p ; nmr (CDCla) r 5.94 (centered, br, 1, CHO), 8.209.03 (br, 18, CH and OH), 9.11 (s, 3, CHa), 9.28 (s, 3, CCHa), and 9.00-9.20 (3,CHCH3); mass spectrum m/e 236 (Mf). Anal. Calcd for C16HzsO: C, 81.29; H , 11.94. Found: C, 81.03; H, 12.02. This alcohol has a strong sandalwood odor. The proton on the carbon atom bearing the hydroxyl group appears at T 5.94, which is consistent with an equatorial proton and therefore an axial alcohol. The 10.3-p band in the ir, characteristic of axial alcohols, confirms the structure.6 The pure cis-4-(ezo-5-ezo-isocamphyl)cyclohexanol(8) was obtained as a colorless crystalline material which could be recrystallized from hexane: mp 88-89'; ir 2.98, 3.45, 6.88, 7.22,7.30, 7.34, 7.92, 8.77, 9.42, 9.70, 9.87, 10.30, 10.50, 11.10, 11.25, 11.55, 12.30, and 12.50 p ; nmr T 6.05 (centered, br, 1, CHO), 8.20-9.00 (br, 18, CH and OH), 9.08 (s, 3, CCH,), 9.16 (s, 3, CCHa), and 9.00-9.20 (3, HCCHa); mass spectrum m/e 236 (Mf). Anal. Calcd for C16Hz80: C, 81.29; H, 11.94. Found: C, 80.93; H, 12.01. This alcohol was odorless. The proton on the carbon atom bearing the hydroxyl group appears a t T 6.05,which is consistent with an equatorial proton and therefore an axial alcohol. The 10.3-p band in the ir, characteristic of axial alcohols, confirms the structure.6

Registry No.-2, 22242-60-0; 3, 22242-61-1; 4, 22242-62-2; 5, 22242-67-7; 6, 22242-63-3; 7, 2224264-4; 9, 22297-77-4; 10, 22242-65-5; 11, 22242-66-6.

Conformations of Cyclic Peptides. Stability of Folded Conformations of para-Substituted 3-Benzylpiperazine-2,5-diones ZIAUDDINAND KENNETH D. KOPPLE Department of Chemistry, Illinois Institute of Technology, Chicago, Illinois 60616

Received June 12, 1969

Cyclic dipeptides bearing an arylmethyl side chain, 3-benzylpiperazine-2,s-dione (cycloglycylphenyl-

e.g.,

(1) This work was supported by a research grant (GM 14069) from the National Institute of General Medical Sciences, U. 6. Public Health Service.

The Journal of Organic Chemistry

254 NOTES TABLE I TEMPERATURE DEPENDENCE O F 2,6-PIPERAZINEDIONE CH PROTON CHEMICAL SHIFTS,6 = A - B 10421 ( u B ) , ~

Piperasinedione

Solvent

A (uA), ppm5